/** @file HL_sys_vim.c
*   @brief VIM Driver Implementation File
*   @date 11-Dec-2018
*   @version 04.07.01
*
*/

/* 
* Copyright (C) 2009-2018 Texas Instruments Incorporated - www.ti.com  
* 
* 
*  Redistribution and use in source and binary forms, with or without 
*  modification, are permitted provided that the following conditions 
*  are met:
*
*    Redistributions of source code must retain the above copyright 
*    notice, this list of conditions and the following disclaimer.
*
*    Redistributions in binary form must reproduce the above copyright
*    notice, this list of conditions and the following disclaimer in the 
*    documentation and/or other materials provided with the   
*    distribution.
*
*    Neither the name of Texas Instruments Incorporated nor the names of
*    its contributors may be used to endorse or promote products derived
*    from this software without specific prior written permission.
*
*  THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 
*  "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 
*  LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
*  A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 
*  OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 
*  SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 
*  LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
*  DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
*  THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 
*  (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 
*  OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/



#include "HL_sys_vim.h"
#include "HL_system.h"
#include "HL_esm.h"

/* USER CODE BEGIN (0) */
/* USER CODE END */

/* Vim Ram Definition */
/** @struct vimRam
*   @brief Vim Ram Definition
*
*   This type is used to access the Vim Ram.
*/
/** @typedef vimRAM_t
*   @brief Vim Ram Type Definition
*
*   This type is used to access the Vim Ram.
*/
typedef volatile struct vimRam
{
    t_isrFuncPTR ISR[VIM_CHANNELS];
} vimRAM_t;

#define vimRAM ((vimRAM_t *)0xFFF82000U)

static const t_isrFuncPTR s_vim_init[128U] =
{
    &phantomInterrupt,
    &esmHighInterrupt,        /* Channel 0   */
    &phantomInterrupt,        /* Channel 1   */
    &vPortPreemptiveTick,        /* Channel 2   */
    &phantomInterrupt,          /* Channel 3   */
    &phantomInterrupt,          /* Channel 4   */
    &phantomInterrupt,          /* Channel 5   */
    &phantomInterrupt,          /* Channel 6   */
    &phantomInterrupt,          /* Channel 7   */
    &phantomInterrupt,          /* Channel 8   */
    &gioHighLevelInterrupt,        /* Channel 9   */
    &phantomInterrupt,          /* Channel 10  */
    &phantomInterrupt,          /* Channel 11  */
    &phantomInterrupt,          /* Channel 12  */
    &phantomInterrupt,          /* Channel 13  */
    &phantomInterrupt,          /* Channel 14  */
    &phantomInterrupt,          /* Channel 15  */
    &can1HighLevelInterrupt,       /* Channel 16  */
    &phantomInterrupt,          /* Channel 17  */
    &phantomInterrupt,          /* Channel 18  */
    &phantomInterrupt,          /* Channel 19  */
    &phantomInterrupt,          /* Channel 20  */
    &vPortYeildWithinAPI,       /* Channel 21  */
    &phantomInterrupt,          /* Channel 22  */
    &phantomInterrupt,          /* Channel 23  */
    &phantomInterrupt,          /* Channel 24  */
    &phantomInterrupt,          /* Channel 25  */
    &phantomInterrupt,          /* Channel 26  */
    &phantomInterrupt,          /* Channel 27  */
    &phantomInterrupt,          /* Channel 28  */
    &phantomInterrupt,          /* Channel 29  */
    &phantomInterrupt,          /* Channel 30  */
    &phantomInterrupt,          /* Channel 31  */
    &phantomInterrupt,          /* Channel 32  */
    &phantomInterrupt,          /* Channel 33  */
    &phantomInterrupt,          /* Channel 34  */
    &can2HighLevelInterrupt,       /* Channel 35  */
    &phantomInterrupt,          /* Channel 36  */
    &phantomInterrupt,          /* Channel 37  */
    &phantomInterrupt,          /* Channel 38  */
    &phantomInterrupt,          /* Channel 39  */
    &phantomInterrupt,          /* Channel 40  */
    &phantomInterrupt,          /* Channel 41  */
    &phantomInterrupt,          /* Channel 42  */
    &phantomInterrupt,          /* Channel 43  */
    &phantomInterrupt,          /* Channel 44  */
    &phantomInterrupt,          /* Channel 45  */
    &phantomInterrupt,          /* Channel 46  */
    &phantomInterrupt,          /* Channel 47  */
    &phantomInterrupt,          /* Channel 48  */
    &phantomInterrupt,          /* Channel 49  */
    &phantomInterrupt,          /* Channel 50  */
    &phantomInterrupt,          /* Channel 51  */
    &phantomInterrupt,          /* Channel 52  */
    &phantomInterrupt,          /* Channel 53  */
    &phantomInterrupt,          /* Channel 54  */
    &phantomInterrupt,          /* Channel 55  */
    &phantomInterrupt,          /* Channel 56  */
    &phantomInterrupt,          /* Channel 57  */
    &phantomInterrupt,          /* Channel 58  */
    &phantomInterrupt,          /* Channel 59  */
    &phantomInterrupt,          /* Channel 60  */
    &phantomInterrupt,          /* Channel 61  */
    &phantomInterrupt,          /* Channel 62  */
    &phantomInterrupt,          /* Channel 63  */
    &phantomInterrupt,          /* Channel 64  */
    &phantomInterrupt,          /* Channel 65  */
    &phantomInterrupt,          /* Channel 66  */
    &phantomInterrupt,          /* Channel 67  */
    &phantomInterrupt,          /* Channel 68  */
    &phantomInterrupt,          /* Channel 69  */
    &phantomInterrupt,          /* Channel 70  */
    &phantomInterrupt,          /* Channel 71  */
    &phantomInterrupt,          /* Channel 72  */
    &phantomInterrupt,          /* Channel 73  */
    &phantomInterrupt,          /* Channel 74  */
    &phantomInterrupt,          /* Channel 75  */
    &phantomInterrupt,          /* Channel 76  */
    &phantomInterrupt,          /* Channel 77  */
    &phantomInterrupt,          /* Channel 78  */
    &phantomInterrupt,          /* Channel 79  */
    &phantomInterrupt,          /* Channel 80  */
    &phantomInterrupt,          /* Channel 81  */
    &phantomInterrupt,          /* Channel 82  */
    &phantomInterrupt,          /* Channel 83  */
    &phantomInterrupt,          /* Channel 84  */
    &phantomInterrupt,          /* Channel 85  */
    &phantomInterrupt,          /* Channel 86  */
    &phantomInterrupt,          /* Channel 87  */
    &phantomInterrupt,          /* Channel 88  */
    &phantomInterrupt,          /* Channel 89  */
    &phantomInterrupt,          /* Channel 90  */
    &phantomInterrupt,          /* Channel 91  */
    &phantomInterrupt,          /* Channel 92  */
    &phantomInterrupt,          /* Channel 93  */
    &phantomInterrupt,          /* Channel 94  */
    &phantomInterrupt,          /* Channel 95  */
    &phantomInterrupt,          /* Channel 96  */
    &phantomInterrupt,          /* Channel 97  */
    &phantomInterrupt,          /* Channel 98  */
    &phantomInterrupt,          /* Channel 99  */
    &phantomInterrupt,          /* Channel 100 */
    &phantomInterrupt,          /* Channel 101 */
    &phantomInterrupt,          /* Channel 102 */
    &phantomInterrupt,          /* Channel 103 */
    &phantomInterrupt,          /* Channel 104 */
    &phantomInterrupt,          /* Channel 105 */
    &phantomInterrupt,          /* Channel 106 */
    &phantomInterrupt,          /* Channel 107 */
    &phantomInterrupt,          /* Channel 108 */
    &phantomInterrupt,          /* Channel 109 */
    &phantomInterrupt,          /* Channel 110 */
    &phantomInterrupt,          /* Channel 111 */
    &phantomInterrupt,          /* Channel 112 */
    &phantomInterrupt,          /* Channel 113 */
    &phantomInterrupt,          /* Channel 114 */
    &phantomInterrupt,          /* Channel 115 */
    &sci4HighLevelInterrupt,      /* Channel 116 */
    &phantomInterrupt,          /* Channel 117 */
    &phantomInterrupt,          /* Channel 118 */
    &phantomInterrupt,          /* Channel 119 */
    &phantomInterrupt,          /* Channel 120 */
    &phantomInterrupt,          /* Channel 121 */
    &phantomInterrupt,          /* Channel 122 */
    &phantomInterrupt,          /* Channel 123 */
    &phantomInterrupt,          /* Channel 124 */
    &phantomInterrupt,          /* Channel 125 */
    &phantomInterrupt,          /* Channel 126 */
};
void vimECCErrorHandler(void);

/* SourceId : VIM_SourceId_001 */
/* DesignId : VIM_DesignId_001 */
/* Requirements : HL_CONQ_VIM_SR2 */
/** @fn void vimInit(void)
*   @brief Initializes VIM module
*
*   This function initializes VIM RAM and registers
*/

void vimInit(void)
{
/* USER CODE BEGIN (1) */
/* USER CODE END */

    /* Enable ECC for VIM RAM */
    /* Errata VIM#28 Workaround: Disable Single Bit error correction */
    vimREG->ECCCTL = (uint32)((uint32)0xAU << 0U) | (uint32)((uint32)0x5U << 16U);

    /* Initialize VIM table */
    {
        uint32 i;

        for (i = 0U; i < VIM_CHANNELS; i++)
        {
            vimRAM->ISR[i] = s_vim_init[i];
        }
    }
    vimREG->FBVECADDR = (uint32)&vimECCErrorHandler;

    /* set IRQ/FIQ priorities */
    vimREG->FIRQPR0 = (uint32)((uint32)SYS_FIQ << 0U)
                    | (uint32)((uint32)SYS_FIQ << 1U)
                    | (uint32)((uint32)SYS_IRQ << 2U)
                    | (uint32)((uint32)SYS_IRQ << 3U)
                    | (uint32)((uint32)SYS_IRQ << 4U)
                    | (uint32)((uint32)SYS_IRQ << 5U)
                    | (uint32)((uint32)SYS_IRQ << 6U)
                    | (uint32)((uint32)SYS_IRQ << 7U)
                    | (uint32)((uint32)SYS_IRQ << 8U)
                    | (uint32)((uint32)SYS_IRQ << 9U)
                    | (uint32)((uint32)SYS_IRQ << 10U)
                    | (uint32)((uint32)SYS_IRQ << 11U)
                    | (uint32)((uint32)SYS_IRQ << 12U)
                    | (uint32)((uint32)SYS_IRQ << 13U)
                    | (uint32)((uint32)SYS_IRQ << 14U)
                    | (uint32)((uint32)SYS_IRQ << 15U)
                    | (uint32)((uint32)SYS_IRQ << 16U)
                    | (uint32)((uint32)SYS_IRQ << 17U)
                    | (uint32)((uint32)SYS_IRQ << 18U)
                    | (uint32)((uint32)SYS_IRQ << 19U)
                    | (uint32)((uint32)SYS_IRQ << 20U)
                    | (uint32)((uint32)SYS_IRQ << 21U)
                    | (uint32)((uint32)SYS_IRQ << 22U)
                    | (uint32)((uint32)SYS_IRQ << 23U)
                    | (uint32)((uint32)SYS_IRQ << 24U)
                    | (uint32)((uint32)SYS_IRQ << 25U)
                    | (uint32)((uint32)SYS_IRQ << 26U)
                    | (uint32)((uint32)SYS_IRQ << 27U)
                    | (uint32)((uint32)SYS_IRQ << 28U)
                    | (uint32)((uint32)SYS_IRQ << 29U)
                    | (uint32)((uint32)SYS_IRQ << 30U)
                    | (uint32)((uint32)SYS_IRQ << 31U);

    vimREG->FIRQPR1 = (uint32)((uint32)SYS_IRQ << 0U)
                    | (uint32)((uint32)SYS_IRQ << 1U)
                    | (uint32)((uint32)SYS_IRQ << 2U)
                    | (uint32)((uint32)SYS_IRQ << 3U)
                    | (uint32)((uint32)SYS_IRQ << 4U)
                    | (uint32)((uint32)SYS_IRQ << 5U)
                    | (uint32)((uint32)SYS_IRQ << 6U)
                    | (uint32)((uint32)SYS_IRQ << 7U)
                    | (uint32)((uint32)SYS_IRQ << 8U)
                    | (uint32)((uint32)SYS_IRQ << 9U)
                    | (uint32)((uint32)SYS_IRQ << 10U)
                    | (uint32)((uint32)SYS_IRQ << 11U)
                    | (uint32)((uint32)SYS_IRQ << 12U)
                    | (uint32)((uint32)SYS_IRQ << 13U)
                    | (uint32)((uint32)SYS_IRQ << 14U)
                    | (uint32)((uint32)SYS_IRQ << 15U)
                    | (uint32)((uint32)SYS_IRQ << 16U)
                    | (uint32)((uint32)SYS_IRQ << 17U)
                    | (uint32)((uint32)SYS_IRQ << 18U)
                    | (uint32)((uint32)SYS_IRQ << 19U)
                    | (uint32)((uint32)SYS_IRQ << 20U)
                    | (uint32)((uint32)SYS_IRQ << 21U)
                    | (uint32)((uint32)SYS_IRQ << 22U)
                    | (uint32)((uint32)SYS_IRQ << 23U)
                    | (uint32)((uint32)SYS_IRQ << 24U)
                    | (uint32)((uint32)SYS_IRQ << 25U)
                    | (uint32)((uint32)SYS_IRQ << 26U)
                    | (uint32)((uint32)SYS_IRQ << 27U)
                    | (uint32)((uint32)SYS_IRQ << 28U)
                    | (uint32)((uint32)SYS_IRQ << 29U)
                    | (uint32)((uint32)SYS_IRQ << 30U)
                    | (uint32)((uint32)SYS_IRQ << 31U);


    vimREG->FIRQPR2 = (uint32)((uint32)SYS_IRQ << 0U)
                    | (uint32)((uint32)SYS_IRQ << 1U)
                    | (uint32)((uint32)SYS_IRQ << 2U)
                    | (uint32)((uint32)SYS_IRQ << 3U)
                    | (uint32)((uint32)SYS_IRQ << 4U)
                    | (uint32)((uint32)SYS_IRQ << 5U)
                    | (uint32)((uint32)SYS_IRQ << 6U)
                    | (uint32)((uint32)SYS_IRQ << 7U)
                    | (uint32)((uint32)SYS_IRQ << 8U)
                    | (uint32)((uint32)SYS_IRQ << 9U)
                    | (uint32)((uint32)SYS_IRQ << 10U)
                    | (uint32)((uint32)SYS_IRQ << 11U)
                    | (uint32)((uint32)SYS_IRQ << 12U)
                    | (uint32)((uint32)SYS_IRQ << 13U)
                    | (uint32)((uint32)SYS_IRQ << 14U)
                    | (uint32)((uint32)SYS_IRQ << 15U)
                    | (uint32)((uint32)SYS_IRQ << 16U)
                    | (uint32)((uint32)SYS_IRQ << 17U)
                    | (uint32)((uint32)SYS_IRQ << 18U)
                    | (uint32)((uint32)SYS_IRQ << 19U)
                    | (uint32)((uint32)SYS_IRQ << 20U)
                    | (uint32)((uint32)SYS_IRQ << 21U)
                    | (uint32)((uint32)SYS_IRQ << 22U)
                    | (uint32)((uint32)SYS_IRQ << 23U)
                    | (uint32)((uint32)SYS_IRQ << 24U)
                    | (uint32)((uint32)SYS_IRQ << 25U)
                    | (uint32)((uint32)SYS_IRQ << 26U)
                    | (uint32)((uint32)SYS_IRQ << 27U)
                    | (uint32)((uint32)SYS_IRQ << 28U)
                    | (uint32)((uint32)SYS_IRQ << 29U)
                    | (uint32)((uint32)SYS_IRQ << 30U)
                    | (uint32)((uint32)SYS_IRQ << 31U);

    vimREG->FIRQPR3 = (uint32)((uint32)SYS_IRQ << 0U)
                    | (uint32)((uint32)SYS_IRQ << 1U)
                    | (uint32)((uint32)SYS_IRQ << 2U)
                    | (uint32)((uint32)SYS_IRQ << 3U)
                    | (uint32)((uint32)SYS_IRQ << 4U)
                    | (uint32)((uint32)SYS_IRQ << 5U)
                    | (uint32)((uint32)SYS_IRQ << 6U)
                    | (uint32)((uint32)SYS_IRQ << 7U)
                    | (uint32)((uint32)SYS_IRQ << 8U)
                    | (uint32)((uint32)SYS_IRQ << 9U)
                    | (uint32)((uint32)SYS_IRQ << 10U)
                    | (uint32)((uint32)SYS_IRQ << 11U)
                    | (uint32)((uint32)SYS_IRQ << 12U)
                    | (uint32)((uint32)SYS_IRQ << 13U)
                    | (uint32)((uint32)SYS_IRQ << 14U)
                    | (uint32)((uint32)SYS_IRQ << 15U)
                    | (uint32)((uint32)SYS_IRQ << 16U)
                    | (uint32)((uint32)SYS_IRQ << 17U)
                    | (uint32)((uint32)SYS_IRQ << 18U)
                    | (uint32)((uint32)SYS_IRQ << 19U)
                    | (uint32)((uint32)SYS_IRQ << 20U)
                    | (uint32)((uint32)SYS_IRQ << 21U)
                    | (uint32)((uint32)SYS_IRQ << 22U)
                    | (uint32)((uint32)SYS_IRQ << 23U)
                    | (uint32)((uint32)SYS_IRQ << 24U)
                    | (uint32)((uint32)SYS_IRQ << 25U)
                    | (uint32)((uint32)SYS_IRQ << 26U)
                    | (uint32)((uint32)SYS_IRQ << 27U)
                    | (uint32)((uint32)SYS_IRQ << 28U)
                    | (uint32)((uint32)SYS_IRQ << 29U)
                    | (uint32)((uint32)SYS_IRQ << 30U)
                    | (uint32)((uint32)SYS_IRQ << 31U);


    /* enable interrupts */
    vimREG->REQMASKSET0 = (uint32)((uint32)1U << 0U)
                        | (uint32)((uint32)1U << 1U)
                        | (uint32)((uint32)1U << 2U)
                        | (uint32)((uint32)0U << 3U)
                        | (uint32)((uint32)0U << 4U)
                        | (uint32)((uint32)0U << 5U)
                        | (uint32)((uint32)0U << 6U)
                        | (uint32)((uint32)0U << 7U)
                        | (uint32)((uint32)0U << 8U)
                        | (uint32)((uint32)1U << 9U)
                        | (uint32)((uint32)0U << 10U)
                        | (uint32)((uint32)0U << 11U)
                        | (uint32)((uint32)0U << 12U)
                        | (uint32)((uint32)0U << 13U)
                        | (uint32)((uint32)0U << 14U)
                        | (uint32)((uint32)0U << 15U)
                        | (uint32)((uint32)1U << 16U)
                        | (uint32)((uint32)0U << 17U)
                        | (uint32)((uint32)0U << 18U)
                        | (uint32)((uint32)0U << 19U)
                        | (uint32)((uint32)0U << 20U)
                        | (uint32)((uint32)1U << 21U)
                        | (uint32)((uint32)0U << 22U)
                        | (uint32)((uint32)0U << 23U)
                        | (uint32)((uint32)0U << 24U)
                        | (uint32)((uint32)0U << 25U)
                        | (uint32)((uint32)0U << 26U)
                        | (uint32)((uint32)0U << 27U)
                        | (uint32)((uint32)0U << 28U)
                        | (uint32)((uint32)0U << 29U)
                        | (uint32)((uint32)0U << 30U)
                        | (uint32)((uint32)0U << 31U);

    vimREG->REQMASKSET1 = (uint32)((uint32)0U << 0U)
                        | (uint32)((uint32)0U << 1U)
                        | (uint32)((uint32)0U << 2U)
                        | (uint32)((uint32)1U << 3U)
                        | (uint32)((uint32)0U << 4U)
                        | (uint32)((uint32)0U << 5U)
                        | (uint32)((uint32)0U << 6U)
                        | (uint32)((uint32)0U << 7U)
                        | (uint32)((uint32)0U << 8U)
                        | (uint32)((uint32)0U << 9U)
                        | (uint32)((uint32)0U << 10U)
                        | (uint32)((uint32)0U << 11U)
                        | (uint32)((uint32)0U << 12U)
                        | (uint32)((uint32)0U << 13U)
                        | (uint32)((uint32)0U << 14U)
                        | (uint32)((uint32)0U << 15U)
                        | (uint32)((uint32)0U << 16U)
                        | (uint32)((uint32)0U << 17U)
                        | (uint32)((uint32)0U << 18U)
                        | (uint32)((uint32)0U << 19U)
                        | (uint32)((uint32)0U << 20U)
                        | (uint32)((uint32)0U << 21U)
                        | (uint32)((uint32)0U << 22U)
                        | (uint32)((uint32)0U << 23U)
                        | (uint32)((uint32)0U << 24U)
                        | (uint32)((uint32)0U << 25U)
                        | (uint32)((uint32)0U << 26U)
                        | (uint32)((uint32)0U << 27U)
                        | (uint32)((uint32)0U << 28U)
                        | (uint32)((uint32)0U << 29U)
                        | (uint32)((uint32)0U << 30U)
                        | (uint32)((uint32)0U << 31U);

    vimREG->REQMASKSET2 = (uint32)((uint32)0U << 0U)
                        | (uint32)((uint32)0U << 1U)
                        | (uint32)((uint32)0U << 2U)
                        | (uint32)((uint32)0U << 3U)
                        | (uint32)((uint32)0U << 4U)
                        | (uint32)((uint32)0U << 5U)
                        | (uint32)((uint32)0U << 6U)
                        | (uint32)((uint32)0U << 7U)
                        | (uint32)((uint32)0U << 8U)
                        | (uint32)((uint32)0U << 9U)
                        | (uint32)((uint32)0U << 10U)
                        | (uint32)((uint32)0U << 11U)
                        | (uint32)((uint32)0U << 12U)
                        | (uint32)((uint32)0U << 13U)
                        | (uint32)((uint32)0U << 14U)
                        | (uint32)((uint32)0U << 15U)
                        | (uint32)((uint32)0U << 16U)
                        | (uint32)((uint32)0U << 17U)
                        | (uint32)((uint32)0U << 18U)
                        | (uint32)((uint32)0U << 19U)
                        | (uint32)((uint32)0U << 20U)
                        | (uint32)((uint32)0U << 21U)
                        | (uint32)((uint32)0U << 22U)
                        | (uint32)((uint32)0U << 23U)
                        | (uint32)((uint32)0U << 24U)
                        | (uint32)((uint32)0U << 25U)
                        | (uint32)((uint32)0U << 26U)
                        | (uint32)((uint32)0U << 27U)
                        | (uint32)((uint32)0U << 28U)
                        | (uint32)((uint32)0U << 29U)
                        | (uint32)((uint32)0U << 30U)
                        | (uint32)((uint32)0U << 31U);

    vimREG->REQMASKSET3 = (uint32)((uint32)0U << 0U)
                        | (uint32)((uint32)0U << 1U)
                        | (uint32)((uint32)0U << 2U)
                        | (uint32)((uint32)0U << 3U)
                        | (uint32)((uint32)0U << 4U)
                        | (uint32)((uint32)0U << 5U)
                        | (uint32)((uint32)0U << 6U)
                        | (uint32)((uint32)0U << 7U)
                        | (uint32)((uint32)0U << 8U)
                        | (uint32)((uint32)0U << 9U)
                        | (uint32)((uint32)0U << 10U)
                        | (uint32)((uint32)0U << 11U)
                        | (uint32)((uint32)0U << 12U)
                        | (uint32)((uint32)0U << 13U)
                        | (uint32)((uint32)0U << 14U)
                        | (uint32)((uint32)0U << 15U)
                        | (uint32)((uint32)0U << 16U)
                        | (uint32)((uint32)0U << 17U)
                        | (uint32)((uint32)0U << 18U)
                        | (uint32)((uint32)0U << 19U)
                        | (uint32)((uint32)1U << 20U)
                        | (uint32)((uint32)0U << 21U)
                        | (uint32)((uint32)0U << 22U)
                        | (uint32)((uint32)0U << 23U)
                        | (uint32)((uint32)0U << 24U)
                        | (uint32)((uint32)0U << 25U)
                        | (uint32)((uint32)0U << 26U)
                        | (uint32)((uint32)0U << 27U)
                        | (uint32)((uint32)0U << 28U)
                        | (uint32)((uint32)0U << 29U)
                        | (uint32)((uint32)0U << 30U)
                        | (uint32)((uint32)0U << 31U);

    /* Set Capture event sources */
    vimREG->CAPEVT = ((uint32)((uint32)0U << 0U)
                     |(uint32)((uint32)0U << 16U));

/* USER CODE BEGIN (2) */
/* USER CODE END */
}

/* SourceId : VIM_SourceId_002 */
/* DesignId : VIM_DesignId_002 */
/* Requirements : HL_CONQ_VIM_SR5 */
/** @fn void vimChannelMap(uint32 request, uint32 channel, t_isrFuncPTR handler)
*   @brief Map selected interrupt request to the selected channel
*
*    @param[in] request: Interrupt request number 2..95
*    @param[in] channel: VIM Channel number 2..95
*    @param[in] handler: Address of the interrupt handler
*
*   This function will map selected interrupt request to the selected channel.
*
*/
void vimChannelMap(uint32 request, uint32 channel, t_isrFuncPTR handler)
{
    uint32 i,j;

/* USER CODE BEGIN (3) */
/* USER CODE END */

    i = channel >> 2U;              /* Find the register to configure */
    j = channel -(i<<2U);           /* Find the offset of the type    */
    j = 3U-j;                       /* reverse the byte order         */
    j = j<<3U;                      /* find the bit location          */

    /*Mapping the required interrupt request to the required channel*/
    vimREG->CHANCTRL[i] &= ~(uint32)((uint32)0xFFU << j);
    vimREG->CHANCTRL[i] |= (request << j);

    /*Updating VIMRAM*/
    vimRAM->ISR[channel + 1U] = handler;

/* USER CODE BEGIN (4) */
/* USER CODE END */
}

/* SourceId : VIM_SourceId_003 */
/* DesignId : VIM_DesignId_003 */
/* Requirements : HL_CONQ_VIM_SR3 */
/** @fn void vimEnableInterrupt(uint32 channel, systemInterrupt_t inttype)
*   @brief Enable interrupt for the the selected channel
*
*    @param[in] channel: VIM Channel number 2..95
*    @param[in] inttype: Interrupt type
*                        - SYS_IRQ: Selected channel will be enabled as IRQ
*                        - SYS_FIQ: Selected channel will be enabled as FIQ
*
*   This function will enable interrupt for the selected channel.
*
*/
void vimEnableInterrupt(uint32 channel, systemInterrupt_t inttype)
{
/* USER CODE BEGIN (5) */
/* USER CODE END */

    if (channel >= 96U)
    {
        if(inttype == SYS_IRQ)
        {
            vimREG->FIRQPR3 &= ~(uint32)((uint32)1U << (channel-96U));
        }
        else
        {
            vimREG->FIRQPR3 |= ((uint32)1U << (channel-96U));
        }
        vimREG->REQMASKSET3 = (uint32)1U << (channel-96U);
    }
    else if (channel >= 64U)
    {
        if(inttype == SYS_IRQ)
        {
            vimREG->FIRQPR2 &= ~(uint32)((uint32)1U << (channel-64U));
        }
        else
        {
            vimREG->FIRQPR2 |= ((uint32)1U << (channel-64U));
        }
        vimREG->REQMASKSET2 = (uint32)1U << (channel-64U);
    }
    else if (channel >= 32U)
    {
        if(inttype == SYS_IRQ)
        {
            vimREG->FIRQPR1 &= ~(uint32)((uint32)1U << (channel-32U));
        }
        else
        {
            vimREG->FIRQPR1 |= ((uint32)1U << (channel-32U));
        }
        vimREG->REQMASKSET1 = (uint32)1U << (channel-32U);
    }
    else if (channel >= 2U)
    {
        if(inttype == SYS_IRQ)
        {
            vimREG->FIRQPR0 &= ~(uint32)((uint32)1U << channel);
        }
        else
        {
            vimREG->FIRQPR0 |= ((uint32)1U << channel);
        }
        vimREG->REQMASKSET0 = (uint32)1U << channel;
    }
    else
    {
        /* Empty */
    }
/* USER CODE BEGIN (6) */
/* USER CODE END */
}

/* SourceId : VIM_SourceId_004 */
/* DesignId : VIM_DesignId_004 */
/* Requirements : HL_CONQ_VIM_SR5 */
/** @fn void vimDisableInterrupt(uint32 channel)
*   @brief Disable interrupt for the the selected channel
*
*    @param[in] channel: VIM Channel number 2..95
*
*   This function will disable interrupt for the selected channel.
*
*/
void vimDisableInterrupt(uint32 channel)
{
/* USER CODE BEGIN (7) */
/* USER CODE END */

    if (channel >= 96U)
    {
        vimREG->REQMASKCLR3 = (uint32)1U << (channel-96U);
    }
    else if (channel >= 64U)
    {
        vimREG->REQMASKCLR2 = (uint32)1U << (channel-64U);
    }
    else if (channel >=32U)
    {
        vimREG->REQMASKCLR1 = (uint32)1U << (channel-32U);
    }
    else if (channel >= 2U)
    {
        vimREG->REQMASKCLR0 = (uint32)1U << channel;
    }
    else
    {
        /* Empty */
    }
/* USER CODE BEGIN (8) */
/* USER CODE END */
}

/* USER CODE BEGIN (9) */
/* USER CODE END */

/* SourceId : VIM_SourceId_005 */
/* DesignId : VIM_DesignId_005 */
/* Requirements : HL_CONQ_VIM_SR7 */
/** @fn void vimGetConfigValue(vim_config_reg_t *config_reg, config_value_type_t type)
*   @brief Get the initial or current values of the configuration registers
*
*    @param[in] *config_reg: pointer to the struct to which the initial or current value of the configuration registers need to be stored
*    @param[in] type:     whether initial or current value of the configuration registers need to be stored
*                        - InitialValue: initial value of the configuration registers will be stored in the struct pointed by config_reg
*                        - CurrentValue: initial value of the configuration registers will be stored in the struct pointed by config_reg
*
*   This function will copy the initial or current value (depending on the parameter 'type') of the configuration
*   registers to the struct pointed by config_reg
*
*/

void vimGetConfigValue(vim_config_reg_t *config_reg, config_value_type_t type)
{
    if (type == InitialValue)
    {
        config_reg->CONFIG_FIRQPR0 = VIM_FIRQPR0_CONFIGVALUE;
        config_reg->CONFIG_FIRQPR1 = VIM_FIRQPR1_CONFIGVALUE;
        config_reg->CONFIG_FIRQPR2 = VIM_FIRQPR2_CONFIGVALUE;
        config_reg->CONFIG_FIRQPR3 = VIM_FIRQPR3_CONFIGVALUE;
        config_reg->CONFIG_REQMASKSET0 = VIM_REQMASKSET0_CONFIGVALUE;
        config_reg->CONFIG_REQMASKSET1 = VIM_REQMASKSET1_CONFIGVALUE;
        config_reg->CONFIG_REQMASKSET2 = VIM_REQMASKSET2_CONFIGVALUE;
        config_reg->CONFIG_REQMASKSET3 = VIM_REQMASKSET3_CONFIGVALUE;
        config_reg->CONFIG_WAKEMASKSET0 = VIM_WAKEMASKSET0_CONFIGVALUE;
        config_reg->CONFIG_WAKEMASKSET1 = VIM_WAKEMASKSET1_CONFIGVALUE;
        config_reg->CONFIG_WAKEMASKSET2 = VIM_WAKEMASKSET2_CONFIGVALUE;
        config_reg->CONFIG_WAKEMASKSET3 = VIM_WAKEMASKSET3_CONFIGVALUE;
        config_reg->CONFIG_CAPEVT = VIM_CAPEVT_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[0U] = VIM_CHANCTRL0_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[1U] = VIM_CHANCTRL1_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[2U] = VIM_CHANCTRL2_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[3U] = VIM_CHANCTRL3_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[4U] = VIM_CHANCTRL4_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[5U] = VIM_CHANCTRL5_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[6U] = VIM_CHANCTRL6_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[7U] = VIM_CHANCTRL7_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[8U] = VIM_CHANCTRL8_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[9U] = VIM_CHANCTRL9_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[10U] = VIM_CHANCTRL10_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[11U] = VIM_CHANCTRL11_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[12U] = VIM_CHANCTRL12_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[13U] = VIM_CHANCTRL13_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[14U] = VIM_CHANCTRL14_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[15U] = VIM_CHANCTRL15_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[16U] = VIM_CHANCTRL16_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[17U] = VIM_CHANCTRL17_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[18U] = VIM_CHANCTRL18_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[19U] = VIM_CHANCTRL19_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[20U] = VIM_CHANCTRL20_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[21U] = VIM_CHANCTRL21_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[22U] = VIM_CHANCTRL22_CONFIGVALUE;
        config_reg->CONFIG_CHANCTRL[23U] = VIM_CHANCTRL23_CONFIGVALUE;
    }
    else
    {
    /*SAFETYMCUSW 134 S MR:12.2 <APPROVED> "Register read back support" */
        config_reg->CONFIG_FIRQPR0 = vimREG->FIRQPR0;
        config_reg->CONFIG_FIRQPR1 = vimREG->FIRQPR1;
        config_reg->CONFIG_FIRQPR2 = vimREG->FIRQPR2;
        config_reg->CONFIG_FIRQPR3 = vimREG->FIRQPR3;
        config_reg->CONFIG_REQMASKSET0 = vimREG->REQMASKSET0;
        config_reg->CONFIG_REQMASKSET1 = vimREG->REQMASKSET1;
        config_reg->CONFIG_REQMASKSET2 = vimREG->REQMASKSET2;
        config_reg->CONFIG_REQMASKSET3 = vimREG->REQMASKSET3;
        config_reg->CONFIG_WAKEMASKSET0 = vimREG->WAKEMASKSET0;
        config_reg->CONFIG_WAKEMASKSET1 = vimREG->WAKEMASKSET1;
        config_reg->CONFIG_WAKEMASKSET2 = vimREG->WAKEMASKSET2;
        config_reg->CONFIG_WAKEMASKSET3 = vimREG->WAKEMASKSET3;
        config_reg->CONFIG_CAPEVT = vimREG->CAPEVT;
        config_reg->CONFIG_CHANCTRL[0U] = vimREG->CHANCTRL[0U];
        config_reg->CONFIG_CHANCTRL[1U] = vimREG->CHANCTRL[1U];
        config_reg->CONFIG_CHANCTRL[2U] = vimREG->CHANCTRL[2U];
        config_reg->CONFIG_CHANCTRL[3U] = vimREG->CHANCTRL[3U];
        config_reg->CONFIG_CHANCTRL[4U] = vimREG->CHANCTRL[4U];
        config_reg->CONFIG_CHANCTRL[5U] = vimREG->CHANCTRL[5U];
        config_reg->CONFIG_CHANCTRL[6U] = vimREG->CHANCTRL[6U];
        config_reg->CONFIG_CHANCTRL[7U] = vimREG->CHANCTRL[7U];
        config_reg->CONFIG_CHANCTRL[8U] = vimREG->CHANCTRL[8U];
        config_reg->CONFIG_CHANCTRL[9U] = vimREG->CHANCTRL[9U];
        config_reg->CONFIG_CHANCTRL[10U] = vimREG->CHANCTRL[10U];
        config_reg->CONFIG_CHANCTRL[11U] = vimREG->CHANCTRL[11U];
        config_reg->CONFIG_CHANCTRL[12U] = vimREG->CHANCTRL[12U];
        config_reg->CONFIG_CHANCTRL[13U] = vimREG->CHANCTRL[13U];
        config_reg->CONFIG_CHANCTRL[14U] = vimREG->CHANCTRL[14U];
        config_reg->CONFIG_CHANCTRL[15U] = vimREG->CHANCTRL[15U];
        config_reg->CONFIG_CHANCTRL[16U] = vimREG->CHANCTRL[16U];
        config_reg->CONFIG_CHANCTRL[17U] = vimREG->CHANCTRL[17U];
        config_reg->CONFIG_CHANCTRL[18U] = vimREG->CHANCTRL[18U];
        config_reg->CONFIG_CHANCTRL[19U] = vimREG->CHANCTRL[19U];
        config_reg->CONFIG_CHANCTRL[20U] = vimREG->CHANCTRL[20U];
        config_reg->CONFIG_CHANCTRL[21U] = vimREG->CHANCTRL[21U];
        config_reg->CONFIG_CHANCTRL[22U] = vimREG->CHANCTRL[22U];
        config_reg->CONFIG_CHANCTRL[23U] = vimREG->CHANCTRL[23U];
    }
}

/* USER CODE BEGIN (10) */
/* USER CODE END */

#pragma CODE_STATE(vimECCErrorHandler, 32)
#pragma INTERRUPT(vimECCErrorHandler, IRQ)
#pragma WEAK(vimECCErrorHandler)

/* SourceId : VIM_SourceId_006 */
/* DesignId : VIM_DesignId_006 */
/* Requirements : HL_CONQ_VIM_SR6 */
void vimECCErrorHandler(void)
{
    uint32 vec;

/* USER CODE BEGIN (11) */
/* USER CODE END */

    /* Identify the corrupted address */
    uint32 error_addr = vimREG->UERRADDR;

    /* Identify the channel number */
    uint32 error_channel = ((error_addr & 0x3FFU) >> 2U);

    /* Correct the corrupted location */
    vimRAM->ISR[error_channel] = s_vim_init[error_channel];

    /* Clear Parity Error Flag */
    vimREG->ECCSTAT = 1U;

    /* Disable and enable the highest priority pending channel */
    if (vimREG->FIQINDEX != 0U)
    {
        vec = vimREG->FIQINDEX - 1U;
    }
    else
    {
       /*SAFETYMCUSW 134 S MR:12.2 <APPROVED> "Read 32 bit volatile register" */
        vec = vimREG->IRQINDEX - 1U;
    }
    if(vec == 0U)
    {
        vimREG->INTREQ0 = 1U;
        vec = esmREG->IOFFHR - 1U;

        if (vec < 32U)
        {
            esmREG->SR1[0U] = (uint32)1U << vec;
            esmGroup1Notification(esmREG, vec);
        }
        else if (vec < 64U)
        {
            esmREG->SR1[1U] = (uint32)1U << (vec-32U);
            esmGroup2Notification(esmREG, (vec-32U));
        }
        else if (vec < 96U)
        {
            esmREG->SR4[0U] = (uint32)1U << (vec-64U);
            esmGroup1Notification(esmREG, (vec-32U));
        }
        else if ((vec >= 128U) && (vec < 160U))
        {
            esmREG->SR7[0U] = (uint32)1U << (vec-128U);
            esmGroup2Notification(esmREG, (vec-96U));
        }
        else
        {
            esmREG->SR7[0U] = 0xFFFFFFFFU;
            esmREG->SR4[1U] = 0xFFFFFFFFU;
            esmREG->SR4[0U] = 0xFFFFFFFFU;
            esmREG->SR1[1U] = 0xFFFFFFFFU;
            esmREG->SR1[0U] = 0xFFFFFFFFU;
        }
    }
    else if (vec < 32U)
    {
        vimREG->REQMASKCLR0 = (uint32)1U << vec;
        vimREG->REQMASKSET0 = (uint32)1U << vec;
    }
    else if (vec < 64U)
    {
        vimREG->REQMASKCLR1 = (uint32)1U << (vec-32U);
        vimREG->REQMASKSET1 = (uint32)1U << (vec-32U);
    }
    else if (vec < 96U)
    {
        vimREG->REQMASKCLR2 = (uint32)1U << (vec-64U);
        vimREG->REQMASKSET2 = (uint32)1U << (vec-64U);
    }
    else
    {
        vimREG->REQMASKCLR3 = (uint32)1U << (vec-96U);
        vimREG->REQMASKSET3 = (uint32)1U << (vec-96U);
    }
/* USER CODE BEGIN (12) */
/* USER CODE END */
}

/* USER CODE BEGIN (13) */
/* USER CODE END */
